Texas Instruments Inc. has introduced a pair of 3-phase, brushless DC (BLDC) motor drivers that allows designers to spin motors in minutes rather than months. Traditional BLDC motor designs require five to 10 components, along with firmware.

The sensorless 5-V, 680-mA DRV10866 and the 12-V, 1.5-A DRV11873 cuts this component count to one with no firmware required, significantly reducing board space and system costs, while helping customers speed their time to market. The devices also provide the lowest operating voltage and standby current to reduce power consumption by up to 75 percent.

Key highlights:

Highly integrated: Single motor driver eliminates the need for external gate drivers, inverters, position detection and feedback, along with a microcontroller (MCU) and firmware, to cut board space, system cost and development time.

Spins motors in minutes: Utilizes TI InstaSPIN-FAN motor solutions, a fully protected solution with no coding and very few external components needed to get motors spinning.

Reduces power consumption by up to 75 percent: Wide operating voltage range of 1.65 V to 5.5 V and low quiescent current of 5 µA extends the battery life of portable devices, such as toothbrushes and shavers, compared to existing solutions.

Flexibility to add advanced control: Can be combined with a TI MSP430 MCU for designs requiring user interface and closed-loop speed control.

In addition to the motor driver, the DRV10866EVM and DRV11873EVM evaluation modules (EVMs) include a simple TLC555 timer, frequency generator output, PWM input and motor connection to enable fast, code-free motor evaluation. Both EVMs ship with schematics and gerber files for a suggested retail price of US$25.

Package, availability and pricing

The DRV10866 and DRV11837 are available today in a 3-mm by 3-mm SON package for a suggested retail price of $0.39 and 16-pin TSSOP for suggested retail price of $0.89, respectively, in 1,000-unit quantities.

Hi Home on ICE
Check out the DRV8312-69M-Kit.
http://www.ti.com/tool/drv8312-69m-kit
The DRV8332 Driver / Protection IC will support sub50V up to 8A, where the DRV8312 is 3.5A
For more on TI's InstaSPIN technology, check out this link.
http://www.ti.com/ww/en/mcu/instaspin/instaspin-foc.shtml

You will find that for higher power motors discrete component designs always work out cheaper. Be careful of the "integrated solution" maximum current ratings - motor startup, peak, and stall currents can be much higher.